Difference between revisions of "Embroidery machine"
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{{Project | {{Project | ||
+ | |picture=Lemming-blocker.jpg | ||
|ProjectSkills=Electronics, Coding, | |ProjectSkills=Electronics, Coding, | ||
− | |ProjectStatus= | + | |ProjectStatus=Planning |
|ProjectNiche=Electronics | |ProjectNiche=Electronics | ||
|ProjectPurpose=Use in other project | |ProjectPurpose=Use in other project | ||
}} | }} | ||
− | + | Embroidery machines are pretty expensive. The software too. In this project I want to convert a normal sewing machine into a CNC embroidery machine. | |
+ | For this a XY table is needed to move the embroidery hoop under the needle. The sewing machine needs a small modification to control the speed and to monitor the needle position. | ||
+ | I would like to start from SVG images, and convert this to GCODE to send patterns to the machine. | ||
== Links == | == Links == | ||
Line 23: | Line 26: | ||
* http://www.makerbeam.eu/ | * http://www.makerbeam.eu/ | ||
* http://openbuildspartstore.com/ | * http://openbuildspartstore.com/ | ||
+ | |||
+ | === Data sheets or related info === | ||
+ | * [http://www.phidgets.com/products.php?product_id=3311_0 Motor wiring] | ||
+ | |||
+ | === Software === | ||
+ | * [http://wiki.linuxcnc.org/cgi-bin/wiki.pl?InkscapeHowto GCode Inkscape extension] | ||
+ | * [http://linuxcnc.org/docs/html/gcode.html G code reference] | ||
+ | * [https://github.com/grbl/grbl GCode parser and CNC controller] | ||
+ | * [http://www.mrxstitch.com/gear-threads-open-source-machine-embroidery/ Open source embroidery software] | ||
+ | |||
+ | === CNC stuff === | ||
+ | * [http://www.shapeoko.com/wiki/ How to build a CNC machine] | ||
+ | * [http://calculator.josefprusa.cz/ RepRap calculator] | ||
== List of stuff == | == List of stuff == | ||
=== XY frame === | === XY frame === | ||
− | * Stuff for frame (ordered on 31 May 2014) | + | * Stuff for frame (ordered on 31 May 2014, at customs on 12 June, still at customs on 25 June...., in on 28 June) |
− | ** | + | ** 2m [http://openbuildspartstore.com/v-slot-20-x-40mm/ V-slot rail] |
** 1.5m [http://openbuildspartstore.com/gt2-2mm-timing-belt/ Belt] | ** 1.5m [http://openbuildspartstore.com/gt2-2mm-timing-belt/ Belt] | ||
** 12 [http://openbuildspartstore.com/openbuilds-solid-v-wheel-kit/ Wheels] | ** 12 [http://openbuildspartstore.com/openbuilds-solid-v-wheel-kit/ Wheels] | ||
Line 43: | Line 59: | ||
** Arduino UNO | ** Arduino UNO | ||
− | === Sewing machine controller | + | === Sewing machine controller === |
* http://www.instructables.com/id/Arduino-controlled-light-dimmer-The-circuit/ | * http://www.instructables.com/id/Arduino-controlled-light-dimmer-The-circuit/ | ||
* something to measure the needle position | * something to measure the needle position | ||
− | + | Two ways of sewing machine operation: | |
− | + | ** continuous (quilting) This is probably the easiest way, because you only need to control the speed. Basically "on" with certain speed and "off" | |
− | * | + | ** end-point punching (more like embroidery) Needs either accurate needle position info or a motor to make exactly one punch. In the second case this would be the Z axis. |
− | * | ||
− | * | ||
== Build log == | == Build log == | ||
* 11 June 2014: soldered pins on the Pololu drivers and soldered the CNC shield | * 11 June 2014: soldered pins on the Pololu drivers and soldered the CNC shield | ||
+ | ** [http://blog.protoneer.co.nz/arduino-cnc-shield-v3-00-assembly-guide/ assembly and instructions] | ||
+ | * 12 June 2014: connected the shield to an Arduino Nano (while waiting for an Uno). Connected a motor and tested the shield. | ||
+ | ** Have put the [https://github.com/Protoneer/GRBL-Arduino-Library arduino GRBL library] on the Arduino | ||
+ | ** Created a simple drawing in [http://www.inkscape.org/en/ Inkscape], converted the path to Gcode with this [http://wiki.linuxcnc.org/cgi-bin/wiki.pl?InkscapeHowto extension], and have sent the gcode to the arduino with the [https://github.com/winder/Universal-G-Code-Sender Universal Gcode Sender] | ||
+ | [[File:20140613 003245.jpg|200px|thumb|none|Uno to Nano]] | ||
+ | * 13 June 2014: added connectors to both motors and ran a simple test | ||
+ | * 15 June 2014: embroidered a lemming by hand | ||
+ | [[File:Lemming-blocker.jpg|200px|thumb|left|blocker]] |
Latest revision as of 22:06, 5 October 2015
Projects | |
---|---|
Participants | Narya |
Skills | Electronics, Coding |
Status | Planning |
Niche | Electronics |
Purpose | Use in other project |
Embroidery machines are pretty expensive. The software too. In this project I want to convert a normal sewing machine into a CNC embroidery machine. For this a XY table is needed to move the embroidery hoop under the needle. The sewing machine needs a small modification to control the speed and to monitor the needle position. I would like to start from SVG images, and convert this to GCODE to send patterns to the machine.
Contents
Links
Projects found on the interweb
- 2006, no documentation
- Lego
- Forum thread
- Makezine computerized sewing machine and here
- Openbuilds sausagePaws 2014 (will use this as basis)
Sewing machine embroidery by hand
Shops
Software
- GCode Inkscape extension
- G code reference
- GCode parser and CNC controller
- Open source embroidery software
CNC stuff
List of stuff
XY frame
- Stuff for frame (ordered on 31 May 2014, at customs on 12 June, still at customs on 25 June...., in on 28 June)
- 2m V-slot rail
- 1.5m Belt
- 12 Wheels
- 2 Pulleys
- 2 Motor mount plates
- Electronic parts (ordered on 31 May 2014, in on 11 June 2014)
- In house?
- M3/M5 Bolts and nuts
- Plate to mount everything on (DIY)
- Arduino UNO
Sewing machine controller
- http://www.instructables.com/id/Arduino-controlled-light-dimmer-The-circuit/
- something to measure the needle position
Two ways of sewing machine operation:
- continuous (quilting) This is probably the easiest way, because you only need to control the speed. Basically "on" with certain speed and "off"
- end-point punching (more like embroidery) Needs either accurate needle position info or a motor to make exactly one punch. In the second case this would be the Z axis.
Build log
- 11 June 2014: soldered pins on the Pololu drivers and soldered the CNC shield
- 12 June 2014: connected the shield to an Arduino Nano (while waiting for an Uno). Connected a motor and tested the shield.
- Have put the arduino GRBL library on the Arduino
- Created a simple drawing in Inkscape, converted the path to Gcode with this extension, and have sent the gcode to the arduino with the Universal Gcode Sender
- 13 June 2014: added connectors to both motors and ran a simple test
- 15 June 2014: embroidered a lemming by hand